Abstract
This study aims to investigate the potentials of open-access, freely distributed Earth Observation images for detecting large-scale looted areas. The analysis was conducted using medium-resolution Landsat 7 ETM+ images over the archaeological site of Apamea, at Syria. The site has been systematically and extensively looted in the recent past, attracting the interest of scholars. We propose a multi-temporal analysis of cloud-free multispectral Landsat 7 ETM+ images throughout the period between January 2011 to April 2012, just at the beginning of the Syrian war. The analysis was completed through the interpretation of pseudo-color temporal composites, investigation of the multi-temporal spectral profiles, correlations between the spectral bands, and the application of principal component analysis (PCA). The overall analysis was limited within the spectral range of 450–1750 nm. This wavelength range corresponds to the first five spectral bands of the Landsat images. Furthermore, we explored the big data cloud platform Google Earth Engine to detected looted areas. A supervised classification strategy was designed and performed on this cloud platform employing the Random Forest classifier. Finally, a time-stamp change detection approach was implemented. The overall findings were compared with available images from Google Earth Digital Globe and published articles and reports related to the Apamea archaeological site. It was found that the high revisit temporal resolution of the Landsat sensor was able to detect and map the looting activity in the area as a result of the spectral change in the archaeological landscape, despite its 30 m spatial resolution. At the same time, however, the analysis has provided other false-true detections in other areas in the landscape.
Highlights
Increased interest from the scientific community for monitoring archaeological areas through satellite imagery has been reported in the recent past (Luo et al 2019; Stewart, Oren & Cohen-Sasson 2018; Abate & Lasaponara 2019; Danti, Branting & Penacho 2017; Tapete & Cigna 2017; Chen, Lasaponara & Masini 2017; Agapiou & Lysandrou 2015)
From the relevant literature, it is evident that the use of medium resolution optical satellite datasets – like those of Sentinel-2 and Landsat series – is still not Agapiou: Detecting Looting Activity through Earth Observation Multi-Temporal Analysis over the Archaeological Site of Apamea (Syria) during 2011–2012 sufficiently investigated
Despite the medium spatial resolution of the Landsat series, this study aims to help us to understand their use for monitoring purposes of archaeological sites and landscapes (Agapiou, Alexakis & Hadjimitsis 2019), as is the case of illegal looting activity of the Apamea site
Summary
Increased interest from the scientific community for monitoring archaeological areas through satellite imagery has been reported in the recent past (Luo et al 2019; Stewart, Oren & Cohen-Sasson 2018; Abate & Lasaponara 2019; Danti, Branting & Penacho 2017; Tapete & Cigna 2017; Chen, Lasaponara & Masini 2017; Agapiou & Lysandrou 2015) These studies have shown the benefits of using Earth Observation as a systematic tool for monitoring natural and man-made hazards (Tzouvaras et al 2019), including looted areas (Cigna et al 2014; Tapete et al 2013). It is to explore at what extent these datasets can be utilized for regional mapping, owing to their extensive spatial coverage per single frame and availability for the entire landmass, as well as their short revisit time” and we here adopt this position
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